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Domain Bacteria. Domain Archaea. Domain Eukarya. Common ancestor. Kingdom: Animals. Domain Eukarya. Animal Characteristics . Heterotrophs must ingest others for nutrients Multicellular complex bodies No cell walls allows active movement Sexual reproduction
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Domain Bacteria Domain Archaea Domain Eukarya Common ancestor Kingdom: Animals Domain Eukarya
Animal Characteristics • Heterotrophs • must ingest others for nutrients • Multicellular • complex bodies • No cell walls • allows active movement • Sexual reproduction • no alternation of generations • no haploid gametophyte
Animal Evolution Cnidaria Nematoda Annelida Echinodermata Porifera Platyhelminthes Mollusca Arthropoda Chordata sponges jellyfish flatworms roundworms mollusks segmentedworms insectsspiders starfish vertebrates • body & brain size, mobility backbone redundancy, specialization, mobility segmentation body size endoskeleton digestive sys coelom radial • body complexity digestive & repro sys body cavity bilateral symmetry distinct body plan; cephalization tissues specialized structure & function, muscle & nerve tissue specialization & body complexity multicellularity bilateral Ancestral Protist
pseudocoel coelom cavity acoelomate Body Cavity ectoderm mesoderm • Space for organ system development • increase digestive & reproductive systems • increase food capacity & digestion • increase gamete production • Coelem • mesoderm & endoderm interact during development • allows complex structures to develop in digestive system • ex. Stomach • CLICK FOR VIDEO endoderm pseudocoelomate ectoderm mesoderm endoderm coelomate ectoderm mesoderm endoderm protostome vs. deuterostome
The most complex problem How to get from here to there
Egg morula blastula • Blastula formation • successive divisions result in a blastula • hollow single-layered sphere enclosing a space = blastocoel
Early embryonic stages • Morula • solid ball stage • Blastula • hollow fluid-filled ball stage • by time human embryo reaches uterus • Gastrula • development of primitive digestive tract (gut) & tissue layers
Gastrulation • zygote blastula gastrula How you looked as a blastula…
Gastrulation • zygote blastula gastrula • rearranges the blastula to form 3-layered embryo with a primitive gut
Gastrulation blastopore:forms at sperm penetration point archenteron:forms endodermembryonic gut mesoderm dorsal lip: organizing center for development tissue formation
Primary tissue or “germ” layers • ectoderm • external surfaces: skin • epidermis (skin); nails, hair & glands; tooth enamel; eye lens; epithelial lining of nose, mouth & rectum; nervous system • endoderm • internal lining • epithelial lining of digestive tract & respiratory systems; reproductive system & urinary tract; digestive organs • mesoderm • middle tissues: muscle, blood & bone • notochord; skeletal, muscular, circulatory, lymphatic, excretory & reproductive systems; lining of body cavity
Basic body plan • Archenteron becomes embryonic gut • mouth at one end • anus at the other • Protostomes • “1st mouth” • blastopore = mouth • invertebrates • Deuterostomes • “2nd mouth” • blastopore = anus • echinoderms & vertebrates
Invertebrate: Porifera food taken into each cell by endocytosis • Sponges • no distinct tissues or organs • do have specialized cells • no symmetry • sessile (as adults)
Invertebrate: Cnidaria • Jellyfish, hydra, sea anemone, coral • tissues, but no organs • two cell layers • radial symmetry • predators • tentacles surround gut opening • extracellular digestion • release enzymes into gut cavity • absorption by cellslining gut polyp medusa
mouth tentacles sensory cell discharged nematocyst stingingcell undischarged nematocyst hydra trigger stinging cell with nematocyst Stinging cells of Cnidarians
ectoderm mesoderm endoderm Invertebrate: Platyhelminthes • Flatworms • tapeworm, planaria • mostly parasitic • bilaterally symmetrical • have right & left & then have head (anterior) end & posterior end • cephalization =development of brain • concentration of sense organs in head • increase specialization in body plan Animals nowface the world head on! acoelomate
Invertebrate: Nematoda • Roundworms • bilaterally symmetrical • body cavity • pseudocoelom = simple body cavity • digestive system • tube running through length of body (mouth to anus) • many are parasitic • hookworm C. elegans
Invertebrate: Mollusca • Mollusks • slugs, snails, clams, squid • bilaterally symmetrical (with exceptions) • soft bodies, mostly protected by hard shells • true coelem • increases complexity & specialization of internal organs
Invertebrate: Annelida • Segmented worms • earthworms, leeches • segments • increase mobility • redundancy in body sections • bilaterally symmetrical • true coelem fan worm leech
Invertebrate: Arthropoda • Spiders, insects, crustaceans • most successful animal phylum • bilaterally symmetrical • segmented • specialized segments • allows jointed appendages • exoskeleton • chitin + protein
Arthropod groups arachnids 8 legs, 2 body parts spiders, ticks, scorpions crustaceans gills, 2 pairs antennae crab, lobster, barnacles, shrimp insects 6 legs, 3 body parts
Invertebrate: Echinodermata • Starfish, sea urchins, sea cucumber • radially symmetrical as adults • spiny endoskeleton • deuterostome loss of bilateral symmetry?
Invertebrate quick check… Invertebrates: Porifera, Cnidaria, Platyhelminthes, Nematoda, Annelida, Mollusca, Arthropoda, Echinodermata • Which group includes snails, clams, and squid? • Which group is the sponges? • Which are the flatworms? …segmented worms? …roundworms? • Which group has jointed appendages & an exoskeleton? • Which two groups have radial symmetry? • What is the adaptive advantage of bilateral symmetry? • Which group has no symmetry?
Which group includes snails, clams, and squid? Mollusks • Which group is the sponges? Porifera • Which are the flatworms? Platyhelminthes …segmented worms? Annelids …roundworms? Nematodes • Which group has jointed appendages & an exoskeleton? Arthropods • Which two groups have radial symmetry? Cnidaria, Echinoderm • What is the adaptive advantage of bilateral symmetry? cephalization • Which group has no symmetry? Profiera
Chordata • Vertebrates • fish, amphibians, reptiles, birds, mammals • internal bony skeleton • backbone encasing spinal column • skull-encased brain • deuterostome hollow dorsal nerve cord becomes brain & spinal cord becomes gills or Eustachian tube pharyngeal pouches becomes vertebrae postanal tail becomes tail or tailbone notochord
450 mya salmon, trout, sharks Vertebrates: Fish • Characteristics • body structure • bony & cartilaginous skeleton • jaws & paired appendages (fins) • scales • body function • gills for gas exchange • two-chambered heart; single loop blood circulation • ectotherms • reproduction • external fertilization • external development in aquatic egg body gills
Humerus Femur Ulna Pelvis Shoulder Tibia Radius Lobe-finned fish Fibula Femur Pelvis Humerus Shoulder Radius Tibia Ulna Fibula Early amphibian Transition to Land Evolution of tetrapods
lung buccal cavity glottis closed 350 mya frogs salamanders toads Vertebrates: Amphibian • Characteristics • body structure • legs (tetrapods) • moist skin • body function • lungs (positive pressure) & diffusion through skin for gas exchange • three-chambered heart;veins from lungs back to heart • ectotherms • reproduction • external fertilization • external development in aquatic egg • metamorphosis (tadpole to adult)
leathery shell embryo amnion chorion allantois yolk sac 250 mya dinosaurs, turtles lizards, snakes alligators, crocodile Vertebrates: Reptiles • Characteristics • body structure • dry skin, scales, armor • body function • lungs for gas exchange • thoracic breathing; negative pressure • three-chambered heart • ectotherms • reproduction • internal fertilization • external development in amniotic egg
lung trachea anterior air sacs posterior air sacs 150 mya finches, hawk ostrich, turkey Vertebrates: Birds (Aves) • Characteristics • body structure • feathers & wings • thin, hollow bone;flight skeleton • body function • very efficient lungs & air sacs • four-chambered heart • endotherms • reproduction • internal fertilization • external development in amniotic egg
muscles contract diaphragm contracts 220 mya / 65 mya mice, ferret elephants, batswhales, humans Vertebrates: Mammals • Characteristics • body structure • hair • specialized teeth • body function • lungs, diaphragm; negative pressure • four-chambered heart • endotherms • reproduction • internal fertilization • internal development in uterus • nourishment through placenta • birth live young • mammary glands make milk
Vertebrates: Mammals • Sub-groups • monotremes • egg-laying mammals • lack placenta & true nipples • duckbilled platypus, echidna • marsupials • pouched mammals • offspring feed from nipples in pouch • short-lived placenta • koala, kangaroo, opossum • placental • true placenta • nutrient & waste filter • shrews, bats, whales, humans
Vertebrate quick check… • Which vertebrates lay eggs with shells? • Which vertebrates are covered with scales? • What adaptations do birds have for flying? • What kind of symmetry do all vertebrates have? • Which vertebrates are ectothermic and which are endothermic • Why must amphibians live near water? • What reproductive adaptations made mammals very successful? • What characteristics distinguish the 3 sub-groups of mammals?
That’s the buzz! AnyQuestions?